Card reader and foreign matter detection method thereof

What is claimed is: 1. A card reader for use with a card having a magnetic stripe, the card reader comprising: a card insertion port; a card passage through which the card inserted from the card insertion port passes, the card passage being connected to the card insertion port; a magnetic head configured to perform at least one of: recording magnetic data to the magnetic stripe of the card; and reading magnetic data from the magnetic stripe of the card; a capacitive sensor provided in contact with the card passage; a movable structure structured such that a distance between the movable structure and the capacitive sensor is variable; and a drive and detection circuit, wherein the capacitive sensor comprises a plurality of regions, each of the plurality of regions being structured to detect a capacitance, and a switch circuit configured to electrically connect and disconnect each region of the plurality of regions, the plurality of regions comprises a first region arranged in a position and a second region, the first region being arranged in a position less susceptible to an influence of a movement of the movable structure than a position of the second region, the card reader further comprises a control circuit configured to control the switch circuit and detect a foreign matter based on an output from the drive and detection circuit, the control circuit unceasingly connects the first region to the drive and detection circuit to detect a foreign matter, and is configured to: if there is a response in the first region while the second region is electrically disconnected from the first region, detect the foreign matter, based on a detection amount in the drive and detection circuit by using a first threshold value, if there is no response in the first region while the second region is electrically disconnected from the first region, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, by using a second threshold value, and thereafter, electrically disconnect the second region from the first region, and when not able to determine that the foreign matter is detected by the first threshold value, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, by using a third threshold value, and thereafter, electrically disconnect the second region from the first region, and the third threshold value is smaller than the second threshold value. 2. The card reader according to claim 1 , wherein the drive and detection circuit is configured to drive the capacitive sensor and obtain a capacitance value to be detected by the capacitive sensor, and wherein the drive and detection circuit is connected to the first region. 3. The card reader according to claim 2 , wherein other regions of the plurality of regions are connected in series via the switch circuit to a region of the plurality of regions connected to the drive and detection circuit. 4. The card reader according to claim 1 , wherein the control circuit is configured to: if there is a response in the first region while the second region is electrically disconnected from the first region, detect the foreign matter, based on a detection amount in the drive and detection circuit, and if there is no response in the first region while the second region is electrically disconnected from the first region, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, and thereafter, electrically disconnect the second region from the first region. 5. The card reader according to claim 1 , wherein the card reader comprises a plurality of the capacitive sensors, and the plurality of the capacitive sensors are arranged along a traveling direction of the card in the card passage. 6. The card reader according to claim 5 , wherein each of the first regions of the plurality of capacitive sensors is arranged at a first side in a direction orthogonal to the traveling direction of the card, and each of the second regions of the plurality of capacitive sensors is arranged at a second side in the direction orthogonal to the traveling direction of the card opposite to the first side. 7. A card reader for use with a card having a magnetic stripe, the card reader comprising: a card insertion port; a card passage through which the card inserted from the card insertion port passes, the card passage being connected to the card insertion port; a magnetic head configured to perform at least one of: recording magnetic data to the magnetic stripe of the card; and reading magnetic data from the magnetic stripe of the card; a capacitive sensor provided in contact with the card passage; and a movable structure structured such that a distance between the movable structure and the capacitive sensor is variable, wherein the capacitive sensor comprises a plurality of regions, each of the plurality of regions being structured to detect a capacitance, and a switch circuit configured to electrically connect and disconnect each region of the plurality of regions, the plurality of regions comprises a first region arranged in a position and a second region, the first region being arranged in a position less susceptible to an influence of a movement of the movable structure than a position of the second region, the card reader further comprises: a drive and detection circuit configured to drive the capacitive sensor and obtain a capacitance value to be detected by the capacitive sensor such that the drive and detection circuit is connected to the first region, and a control circuit configured to control the switch circuit and detect the foreign matter based on an output from the drive and detection circuit, and the control circuit unceasingly connects the first region to the drive and detection circuit to detect the foreign matter. 8. The card reader according to claim 7 , wherein the control circuit is configured to: if there is a response in the first region while the second region is electrically disconnected from the first region, detect the foreign matter, based on a detection amount in the drive and detection circuit, and if there is no response in the first region while the second region is electrically disconnected from the first region, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, and thereafter, electrically disconnect the second region from the first region. 9. The card reader according to claim 7 , wherein the control circuit is configured to: if there is a response in the first region while the second region is electrically disconnected from the first region, detect the foreign matter, based on a detection amount in the drive and detection circuit by using a first threshold value, if there is no response in the first region while the second region is electrically disconnected from the first region, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, by using a second threshold value, and thereafter, electrically disconnect the second region from the first region, and when not able to determine that the foreign matter is detected by the first threshold value, electrically connect the second region to the first region to detect the foreign matter, based on the detection amount in the drive and detection circuit, by using a third threshold value, and thereafter, electrically disconnect the secon